fungal virulence – Page 3

Deubiquitinase Ubp5 is essential for pulmonary immune evasion and hematogenous dissemination of Cryptococcus neoformans

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This study shows that removing a fungal enzyme called Ubp5 from Cryptococcus neoformans significantly weakens the fungus and allows the body’s immune system to fight the infection more effectively. The fungus without Ubp5 loses its ability to hide from the immune system, triggering stronger protective immune responses including more T cells and beneficial inflammatory signals. This research suggests that targeting Ubp5 could be a promising strategy to help treat cryptococcal infections by enhancing the body’s natural defense mechanisms.

Effects of Short-Chain Fatty Acid Combinations Relevant to the Healthy and Dysbiotic Gut upon Candida albicans

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Short-chain fatty acids produced by healthy gut bacteria appear to slow the growth and reduce the invasive characteristics of Candida albicans, a fungus that normally lives harmlessly in the gut but can cause infections when the microbiota is disrupted by antibiotics. This study tested whether healthy gut SCFA levels inhibit Candida more effectively than dysbiotic levels and found that the healthy SCFA mix was somewhat more effective at preventing fungal hyphal formation, which is important for tissue invasion. However, different Candida strains responded differently to the SCFAs, suggesting that individual variation affects how protective these bacterial metabolites can be.

VdPAT1 encoding a pantothenate transporter protein is required for fungal growth, mycelial penetration and pathogenicity of Verticillium dahliae

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Verticillium dahliae is a destructive fungus that causes a wilting disease in cotton crops. Researchers found that a specific protein (VdPAT1) that helps the fungus absorb vitamin B5 is critical for its survival and ability to infect cotton plants. When they disabled this protein, the fungus grew poorly, couldn’t penetrate plant tissues effectively, and became much less virulent, suggesting this protein could be a target for controlling the disease.

Is metabolic generalism the Breakfast of Champions for pathogenic Candida species?

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This review examines how different Candida species, including the common cause of yeast infections (C. albicans) and the more dangerous bloodstream pathogen (C. glabrata), survive in the human body. While most pathogenic Candida species are metabolic generalists that can eat many different nutrients, the review shows that C. glabrata is a specialist that has found alternative strategies to thrive. Understanding these metabolic strategies is important for developing better treatments and fighting antifungal resistance.

Isolation and Characterization of a Native Metarhizium rileyi Strain Mrpgbm2408 from Paralipsa gularis in Maize: First Data on Efficacy and Enzymatic Host Response Dynamics

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Scientists in China discovered a naturally occurring fungus (Metarhizium rileyi) that effectively kills a destructive maize pest called Paralipsa gularis. When the fungus infects the pest larvae, it disrupts their natural defense enzymes and causes high mortality rates. This fungus could replace harmful chemical pesticides and provide a sustainable way to protect crops while protecting the environment.

Toxicity Assay and Pathogenic Process Analysis of Clonostachys rogersoniana Infecting Cephalcia chuxiongica

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Scientists discovered a fungus called Clonostachys rogersoniana that can kill a major pine forest pest. The fungus enters the pest through small breathing holes called spiracles, which is unusual compared to most fungal infections. Testing showed the fungus kills half the pest population in about 24 hours at relatively low concentrations. This discovery could help protect Chinese pine forests without using harmful chemical pesticides.

Disseminated subcutaneous sporotrichosis in an immunocompetent patient: A case report and a systematic literature review

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A 74-year-old man developed painful red masses on his arm and hand after being stuck by a tree branch. Tests identified the infection was caused by a fungus called Sporothrix schenckii. Despite having a normal immune system, the infection had spread across his arm in an unusual pattern. Treatment with an antifungal medication called itraconazole completely healed the lesions within four months without any scarring.

The Transcription Factor SsSR Mediates Ergosterol Biosynthesis and Virulence in Sclerotinia sclerotiorum

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Scientists discovered that a specific protein called SsSR acts as a master switch controlling how dangerous a fungus called Sclerotinia sclerotiorum becomes when attacking plants. Unlike other protein switches that make the fungus grow faster, this one specifically controls the fungus’s ability to cause infection by managing the production of ergosterol, a critical component of the fungus’s cell membranes. This discovery could lead to new ways to protect crops like oilseed rape from this devastating disease.

A mycovirus enhances fitness of an insect pathogenic fungus and potentially modulates virulence through interactions between viral and host proteins

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Scientists discovered a virus that infects Beauveria bassiana, a fungus used to control pests naturally. This virus actually helps the fungus by making it produce more spores, survive harsh conditions like sunlight and heat, and kill target insects faster. The virus does this by interacting with specific fungal proteins that control reproduction, stress response, and virulence. This discovery could lead to better biological pest control products that are more effective and reliable than current options.

The protein kinases family in fungi: adaptability, virulence and conservation between species

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Protein kinases are cellular ‘switches’ that help fungi survive harsh conditions by regulating how cells make proteins and adapt to stress. A particularly important kinase called GCN2 acts as a sensor that detects when fungi lack amino acids, triggering a survival response that helps the fungus adapt and maintain pathogenicity. This review shows how understanding GCN2 could help scientists develop new antifungal drugs to treat fungal infections.

Research Keyword: fungal virulence